nm23-H1基因转染L9981肺癌细胞前后基因表达谱的变化

应用基因芯片检测L9981细胞转染nm23-H1基因前后细胞基因表达谱的改变.提取L9981细胞转染nm23-H1基因前后细胞的总RNA,纯化为mRNA后再转录为cDNA.cDNA经限制性内切酶Sau3AI消化后,cDNA片段分别用cy3和cy5标记,与定制的包含14000个基因芯片杂交.杂交结果经扫描和软件分析,nm23-H1基因转染L9981细胞后发现1156(8.26%,1156/14000)个基因表达上调,而642(4.59%,642/14000)个基因表达下调.涉及基因包括信号传导、癌基因与抑癌基因、转移相关基因、细胞周期与凋亡、细胞外基质与细胞骨架相关基因,以及细胞因子和转录因子等.nm23-H1基因是通过对转移相关基因的调节来发挥其抑制肺癌细胞株L9981侵袭和转移作用的.     

组织微阵列技术研究肿瘤转移相关基因在鼻咽癌中的表达与临床意义

利用高通量组织微阵列结合免疫组化检测MT1-MMP、MT2-MMP、Ezrin、nm23-H1、E-cad和TIMP-2在鼻咽癌组织中的蛋白质表达,探讨肿瘤转移相关基因异常表达在鼻咽癌侵袭转移中的作用,筛选鼻咽癌转移相关分子标志物.结果发现,鼻咽癌组织存在MT1-MMP、Ezrin蛋白高表达(P<0.01)和nm23-H1、TIMP-2蛋白低表达(P<0.05).临床Ⅱ期、Ⅲ期和Ⅳ期鼻咽癌和淋巴结转移鼻咽癌中MT1-MMP、MT2-MMP和Ezrin蛋白阳性表达显著高于临床Ⅰ期鼻咽癌和无转移癌(P<0.05,P<0.01),但临床Ⅱ期、Ⅲ期和Ⅳ期鼻咽癌和淋巴结转移鼻咽癌中nm23-H1蛋白的阳性表达显著低于临床Ⅰ期鼻咽癌和无转移癌(P<0.05).鼻咽癌组织中MT1-MMP与MT2-MMP r=0.308,P<0.001),nm23-H1与E-cad(r=0.167,P<0.05)及TIMP-2(r=0.279,P=0.001),E-cad与TIMP-2(r=0.279,P=0.001)的蛋白质表达旱显著正相关.MT1-MMP与E-cad(r=-0.188,P<0.05)及TIMP-2(r=-0.233,P<0.05),Ezrin与E-cad(r=-0.204,P<0.05)的蛋白质表达呈显著性负相关.聚类分析显示,鼻咽癌MT1-MMP、MT2-MMP和Ezrin蛋白共同阳性表达显著高于慢性炎性鼻咽上皮(P<0.05),但nm23-H1、E-cad和TIMP-2蛋白在鼻咽癌组织中的共同阴性显著高于癌旁上皮和慢性炎性鼻咽上皮(P<0.05,P<0.01).多因素分析和有效性评估发现,MT1-MMP蛋白能较好地独立预测鼻咽癌淋巴结转移和临床进展.上述研究结果提示,多个肿瘤转移基因的蛋白质高表达,转移抑制基因的低表达和这些基因的蛋白质表达失平衡在鼻咽癌淋巴结转移和临床进展过程中起重要作用.MTI-MMP蛋白可作为预测鼻咽癌淋巴结转移的较好分子标志.     

nm23-H1基因转染前后人高转移大细胞肺癌细胞株双向凝胶电泳图谱分析

为了更全面地了解nm23-H1在肺癌中发挥转移抑制的机理,用双向凝胶电泳技术比较人高转移大细胞肺癌细胞株(L9981)和转染nm23-H1基因的人大细胞肺癌细胞株(L9981-nm23-H1)间蛋白表达的差异.利用固相pH梯度双向凝胶电泳分离人高转移大细胞肺癌细胞株(L9981)和转染nm23-H1基因的人大细胞肺癌细胞株(L9981-nm23-H1)的总蛋白,用图像分析软件比较分析以识别细胞间的差异表达蛋白质.结果成功地获得了两株细胞蛋白组分辨率高、重复性好的双向凝胶电泳图谱.软件分析两种细胞的凝胶电泳图谱后发现,在相同分析条件下识别的蛋白质斑点数L9981为902±169个、L9981-nm23-H1为1160±212个.比较L9981和L9981-nm23-H1人大细胞肺癌细胞株的双向凝胶电泳蛋白质图谱后发现6个蛋白质点仅在L9981中有表达,17个蛋白质点仅在L9981-nm23-H1中有表达.此外,发现13个在两种细胞株中均存在,但表达量差异在2倍以上的蛋白质点(P<0.05).结果提示,nm23-H1基因转染引起人高转移大细胞肺癌细胞株蛋白质表达谱的变化,可能是其逆转肺癌侵袭转移的生物学基础.     

nm23-H1与白血病和淋巴瘤的预后关系

肿瘤转移相关蛋白nm23-H1/NDPK-A在某些癌症中与肿瘤转移潜能呈负相关,另一方面它又是多种血液肿瘤的分化抑制因子。大量临床病例的研究表明nm23-H1在急性髓性白血病和非霍奇金淋巴瘤中具有预后作用。本文主要就nm23-H1/NDPK-A蛋白在急性髓性白血病和非霍奇金淋巴瘤与邓后的相关性以及潜在的预后价值进行了综述。     

nm23-H1和PTEN蛋白与肝癌侵袭进展关系的研究

为研究原发性肝细胞性肝癌中nm23-H1和PTEN的表达状况,并分析两者的临床意义,本研究选取顺德第一人民医院2005年1月至2008年12月原发性肝细胞性肝癌手术患者蜡块标本68例,按Edmondson标准进行组织学分级,68例原发性肝细胞性肝癌组织为对照组,5例正常肝组织作为参照组。通过采取免疫组化S-P实验法测定两组标本nm23-H1、PTEN的表达。结果显示,nm23-H1蛋白在HCC、正常肝组织中的阳性表达率分别是30.88%(21/68)、86.67%(13/15),nm23-H1在HCC中的表达低于正常肝组织(χ~2=15.813, p0.05)。同时,根据实验分析可见,PTEN在正常肝组织、肝癌组织中的阳性率分别为93.33%(14/15)、60.29%(41/68),且PTEN在HCC中的表达低于正常肝组织(χ~2=6.001, p0.05),两者均与肿瘤的分化程度和转移相关。本研究表明PTEN、nm23-H1与HCC侵袭性强弱和是否发生转移有一定的相关性。     

siRNA分析nm23-H1基因与人慢性髓性白血病的关系

设计并筛选靶向nm23-H1基因的siRNAs序列,探讨nm23-H1基因与人慢性髓性白血病之间的关系。依据siRNA设计原则,设计3条siRNA序列。将不同靶点的siRNA用lipofectamine2000转染人慢性髓性白血病细胞株K562。转染后24h RTPCR检测nm23-H1mRNA水平变化;转染后48h免疫细胞化学法检测nm23-H1蛋白表达。MTT法检测转染后24h、48h和72h有效siRNA对K562细胞生长的影响。3条siRNA中,siNM526能有效地抑制K562细胞nm23-H1基因表达,转染siNM526的K56细胞生长受到抑制。说明下调nm23-H1基因的表达有抑制K562细胞增殖的作用,即降低了K562细胞的恶性程度。nm23-H基因有可能成为白血病治疗潜在的分子靶点。     

中国人原发性胆囊肿瘤nm23H1基因遗传不稳定性的研究

采用石蜡包埋组织抽提DNA,PCR-单链构象多态性(PCR-SSCP),常规银染,Envision免疫组织化学和Leica-Qwin计算机图像分析等方法,研究人类17号染色体D17S396位点微卫星不稳定性(microsatelliteinstablility,MSI)和杂合性缺失(lossofheterozygosity,LOH),对胆囊肿瘤nm23H1蛋白表达的影响,阐明nm23H1基因遗传不稳定性与胆囊肿瘤进展的关系,为揭示nm23H1基因与肿瘤发生和转移机理提供实验依据。在本实验中,原发性胆囊癌D17S396位点遗传不稳定发生率为42.55%,明显高于良性胆囊肿瘤的13.04%,而在胆囊炎组织中,未见该位点遗传不稳定的发生;其中,LOH的发生率随组织恶性程度的增高而增加(P<0.05)。在胆囊癌中,LOH和MSI发生率与肿瘤组织分化程度具有显著差异(P<0.05);LOH的发生率,在肝脏浸润和淋巴转移组高于无肝脏浸润和无淋巴转移组,在NevinⅣ Ⅴ期高于Ⅰ Ⅱ Ⅲ期(P<0.01);而MSI发生率则相反。nm23H1蛋白阳性率在胆囊癌、胆囊良性肿瘤和炎症组织中差异显著(P<0.05);在胆囊癌中,淋巴转移组低于无淋巴转移组(P<0.01);NevinⅣ Ⅴ期低于Ⅰ Ⅱ Ⅲ期(P<0.05)。此外,计算机图像定量分析显示,在各临床病理参数影响下,nm23H1蛋白的表达强度没有差异。在胆囊癌中,LOH阳性组中nm23H1蛋白阳性率显著低于LOH阴性组,两者差异显著(P<0.05)。实验结果提示,nm23H1基因的遗传不稳定性可能是胆囊肿瘤发生、发展的一个重要机制。nm23H1基因的MSI和LOH,通过相互独立的途径调控胆囊癌的发生和转移,MSI是胆囊癌早期分子指标,LOH可作为胆囊组织恶变的判断指标,可抑制胆囊癌局部nm23H1蛋白的表达,并赋予胆囊癌高淋巴结转移、低预后的特性。提高胆囊癌局部nm23H1蛋白的表达,可减缓肿瘤的浸润转移并提高预后率。     

胃癌侵袭转移相关基因的研究进展

肿瘤的侵袭转移是恶性肿瘤患者死亡的主要原因。目前对胃癌侵袭转移的分子机制尚未查明。胃癌侵袭转移过程中涉及许多特殊基因,包括促进转移的转移基因和控制转移的转移抑制基因。转移基因有：细胞粘附分子(cAM)基因、基质金属蛋白酶(MMPs)基因、肝素酶(heparanase)基因等;转移抑制基因有：nm23、组织基质金属蛋白酶抑制因子(TIMPs)基因等。本文对胃癌侵袭转移相关基因及其产物的结构、功能及其在侵袭转移过程中作用的研究进展作一综述。     

中国人卵巢上皮性肿瘤nm23H1基因遗传不稳定性的研究

采用石蜡包埋组织抽提DNA,PCR-单链构象多态性(PCR-SSCP),常规银染、Envision免疫组织化学染色和Leica-Qwin计算机图像分析等方法,研究人类17号染色体D17S396位点微卫星不稳定(microsatellite instablility,MSI)和杂合性缺失(loss of heterozygosity,LOH),对卵巢上皮性肿瘤nm23H1蛋白表达的影响,阐明nm23H1基因遗传不稳定性与卵巢肿瘤进展的关系,为揭示nm23H1基因作用机制和肿瘤转移机制提供实验依据。本实验中,卵巢上皮性癌D17S396位点遗传不稳定发生率为40%,明显高于交界性肿瘤的9.52%,而在良性肿瘤和正常卵巢组织中,未见该位点遗传不稳定的发生。其中,LOH的发生率,随肿瘤恶性程度的增高而增加(P<0.05)。在卵巢上皮性癌中,淋巴转移组的LOH发生率高于无淋巴转移组(P<0.01)。FIGO Ⅲ Ⅳ期的LOH发生率高于Ⅰ Ⅱ期(P<0.05)。MSI发生率与卵巢上皮癌组织类型、分化程度、淋巴转移及FIGO分期均无关。nm23H1 蛋白阳性率在卵巢上皮性癌和交界性肿瘤组织中分别为56.00%和57.14%,高于良性肿瘤的13.64%和正常卵巢组织的8.33%(P<0.01)。卵巢上皮性癌中,淋巴转移组nm23H1蛋白阳性率低于无淋巴转移组;FIGO Ⅲ Ⅳ期nm23H1蛋白阳性率低于Ⅰ Ⅱ期(P<0.05)。此外,计算机图像定量分析显示,在各临床病理参数影响下,nm23H1蛋白的表达强度没有差异。在卵巢上皮性癌中,LOH阳性组中nm23H1蛋白阳性率为0.00%,显著低于LOH阴性组的73.68%(P<0.01)。实验结果提示, nm23H1基因的遗传不稳定性可能是卵巢上皮性癌发生、发展的一个重要机制。LOH的发生可作为卵巢组织恶变的判断指标。nm23H1基因的MSI和LOH,通过相互独立的途径调控卵巢上皮癌的发生和转移,后者可抑制卵巢上皮癌局部nm23H1蛋白的表达,并赋予卵巢上皮癌高淋巴结转移、低预后的特性。提高卵巢上皮癌局部nm23H1蛋白的表达,可减缓肿瘤的淋巴转移并提高预后率。     

肿瘤抑制基因RECK的功能及与肿瘤侵袭转移的关系

RECK是新近发现的肿瘤抑制基因,与肿瘤的侵袭转移能力密切相关.该文介绍RECK的功能、与肿瘤侵袭转移的关系及其临床意义.     

Expression of nm23-H1 gene product in thyroid,ovary, and breast cancers

The nm23 gene product is one of several possible mediators of cancer invasion and metastasis. As the amounts of nm23-H1 mRNA and gene product are reduced in metastatic lymph nodes from patients with papillary carcinoma of the thyroid, we examined the expression of nm23 gene product in 115 thyroid cancers, 78 ovarian cancers, 63 breast cancers, and metastatic lymph node tissues by immunohistochemistry. It was found that nm23-H1, but not nm23-H2 gene product, was expressed in primary sites of thyroid, ovarian, and breast cancers, except for medullary and anaplastic carcinomas of the thyroid, but expressed only weakly or poorly in metastatic lymph nodes. Although nm23-H1 gene product expression was lower in anaplastic and medullary carcinomas of the thyroid, there was no significant difference in nm23-H1 gene product expression among histological types of ovarian and breast cancers. Our data indicate that the nm23-H1 gene product may play a role in metastasis in these hormone-producing organs and that other factors may be involved in metastasis of anaplastic and medullary carcinomas of the thyroid.     

Down-regulation of N-acetylglucosaminyltransferase V by tumorigenesis- or metastasis-suppressor gene and its relation to metastatic potential of human hepatocarcinoma cells

The effects of transfection of the metastasis suppressor gene nm23-H1 and cell-cycle related tumor-suppressor gene p16 on the activity of N-acetylglucosaminyltransferase V (GnT-V) and their relations to cancer metastatic potential were investigated. After transfection of nm23-H1 into 7721 human hepatocarcinoma cells and A549 human lung cancer cells, the activities of GnT-V were decreased by 28%-42% in the cells. In contrast, when p16 was transfected into these two cell lines, the decrease of GnT-V activity was only observed in A549 cells. This was probably to be due to the obvious expression of p16 gene in parental 7721 cells and the deletion of p16 in A549 cells. The decrease of GnT-V mRNA was only observed in nm23-H1-transfected cells, but not in p16-transfected A549 cells, suggesting that these two genes regulated GnT-V via different mechanisms. Horseradish peroxidase (HRP)-lectin staining showed that the 7721 cells transfected with nm23-H1 or the A549 cells transfected with p16 displayed a decreased intensity with HRP-leucoagglutinating phytohemagglutinin and increased intensity with HRP-concanavalin A, indicating the decline of beta1,6 N-acetylglucosamine branching structure on the asparagine-linked glycans of cell-surface and intracellular glycoproteins. The nm23-H1 transfected 7721 cells also displayed some changes in metastasis-related phenotypes, including the increase in cell adhesion to fibronectin (Fn), the decline in cell adhesion to laminin (Ln), and the decreased cell migration and invasion through matrigel. Transfection of antisense GnT-V cDNA into 7721 cells resulted in a decrease of GnT-V activity, an increase of cell adhesion to Fn or Ln, and a decrease in cell migration and invasion through matrigel. These phenotypes bore similarity to those of the 7721 cells transfected with nm23-H1. Our findings indicate that the down-regulation of GnT-V by nm23-H1 contributes to the alterations in metastasis-related phenotypes, and is an important molecular mechanism of metastasis suppression mediated by nm23-H1.     

Alteration in gene expression profile and biological behavior in human lung cancer cell line NL9980 by nm23-H1 gene silencing

Lung cancer is the leading cause of cancer death in both men and women. Tumor metastasis is an essential aspect of lung cancer progression. nm23-H1 is a metastasis suppressor gene. The molecular mechanism by which nm23-H1 suppresses the metastasis is still unclear. Here, we compared the gene expression profile of human large cell lung cancer cell line NL9980 by nm23-H1 gene silencing with that of negative control cells to comprehensively investigate nm23-H1-mediated changes in gene expression of NL9980 cells. Microarray assay revealed that expression of 733-known genes (1.9%, 733/38,500) were altered in response to nm23-H1 gene silencing, including 466 upregulated genes and 267 downregulated. real-time PCR assay of the expression changes indicated that 81.82% (45/55) of verified genes were consistent with that observed in microarray assay. The upregulated genes included MMP-1, -2, SNAI2, CXCL1, 2, 3, PAI-2, while the downregulated genes included cystatin B, TIMP-2, E-cadherin, centrin-2, all of which have been associated with tumor metastasis. Furthermore, we confirmed by Western blot that the expression of MMP-1 and -2 were significantly increased while that of cystatin B was dramatically decreased in NL9980-nm23-H1 silencing cells. The NL9980-nm23-H1 silencing cells exhibited significantly more S phase growth and invasive ability. Thus, silencing of nm23-H1 gene caused metastasis-related gene expression changes in lung cancer cells. The knockdown of nm23-H1 expression may change the lung cancer cells to a more invasive phenotype through alteration in the expression of a set of genes.     

nm23-H1基因缺失人肺癌细胞株的筛选与鉴定

nm23一Hj基因与肺癌的侵袭与转移密切相关,但是其作用的分子机制尚不清楚,为研究nm23—141基因的功能,筛选并鉴定了nm23一H,基因缺失人肺癌细胞株及其生物学特性．应用SoutheITIblot．RT—PCR和West—elTl blot检测9株人肺癌细胞株中nm23—14,基因的存在状态及其生物学行为．结果发现发现人大肺癌细胞株L9981中存在nm23—141等位基因的杂合性缺失,与其同源的NL9980及其它7株肺癌细胞株中nm23—111基因均以杂合子的形式存在;并且L998l细胞株的增殖能力、克隆形成能力、体外侵袭力．裸鼠体内成瘤性及移植瘤肺转移的能力均显著高于NL9980．研究结果显示nm23一H,基因的缺失可能与L998l细胞株恶性表型和高转移潜能密切相关．     

Lbc proto-oncogene product binds to and could be negatively regulated by metastasis suppressor nm23-H2

Lbc was identified as transforming gene from human leukemic cells and encodes Rho type guanine nucleotide exchange factor with 47kDa molecular weight. We isolated overlapping cDNAs of Lbc from human lung tissue. Full-length Lbc cDNA encodes 309kDa huge protein with Ht31 PKA anchoring motif, Dof domain, C1 domain, and coiled-coil structure. In order to analyze the regulatory mechanism of its activity, we searched for binding proteins. By yeast two-hybrid screening, we identified metastasis suppressor nm23-H2 as binding protein, which interacts with amino-terminal region of Lbc containing Dof domain. nm23 gene family encodes nucleoside diphosphate kinase, however, the binding of nm23-H2 to Lbc was independent of kinase activity. nm23-H1, which binds to Rac-specific GEF Tiam1, could not bind to Lbc suggesting nm23-H2 would be specific regulator for Lbc. Expression of nm23-H2 in cells leads to decrease the amount of GTP-bound Rho and suppress stress fiber formation stimulated by expression of Lbc. Our data suggest that metastasis suppressor nm23-H2 could regulate Lbc negatively by binding to amino-terminal region of Lbc proto-oncogene product.     

Isolation and characterization of new microsatellites at the nm23-H1 and nm23-H2 gene loci and application for loss of heterozygosity (LOH) analysis

 The nm23-H1 gene has been suggested to be a metastasis suppressor gene. Studies about the events of loss of heterozygosity (LOH) at the nm23 locus and its correlation to metastasis are controversially discussed. To optimize detection of LOH at the nm23 locus, we screened two P1 clones for additional microsatellites. Tumor and normal DNA from 37 colorectal, 16 gastric, and 8 germ cancer patients were examined for LOH. We found two new CA repeats, one 5′ to nm23-H1 and another 3′ to nm23-H2. Using these nm23 locus-specific CA repeats and five other chromosome 17 loci (D17S1522, D17S1566, D17S855, D17S515, and TP53), allele loss was observed in 4/32 (12.5%) patients with colon cancer, 2/14 (14.3%) with gastric cancer, and 1/7 (14%) with germ cancer. No isolated LOH of the nm23 region was observed. Received: 5 May 1997 / Accepted: 2 June 1997     

Reduction of invasion in human fibrosarcoma cells by ribosomal protein S3 in conjunction with Nm23-H1 and ERK

RpS3 is a component of the 40S ribosomal subunit of eukaryotes and also plays a role as a base damage endonuclease. Nm23-H1 encodes nucleoside diphosphate kinase A and acts as a suppressor of metastasis in certain human tumors. RpS3 interacted with nm23-H1, and the two proteins were colocalized in the cell periphery and cytoplasm. The 190th leucine of rpS3, and the 118th histidine and the 120th serine of nm23-H1 play key roles in the interaction of two proteins, respectively. The expression of rpS3 reduced the secretion of MMP-9 and the invasive potential in HT1080 cells. Additionally, the phosphorylated ERK was reduced by the expression of rpS3. In MCF7 cells, where the ERK pathway is inactivated and MMPs are not secreted and the ERK pathway can be activated by PMA, the PMA-induced ERK phosphorylation was reduced by the expression of rpS3. However, the L190A mutant of rpS3, which did not interact with nm23-H1, did not inhibit the invasive potential, the secretion of MMP-9, and the activation of the ERK pathway in HT1080 cells and PMA-activated MCF7 cells. These results suggest that rpS3 inhibits invasion via blocking the ERK pathway and MMP-9 secretion; the results also suggest that the interaction of rpS3 and nm23-H1 appears to be critical in this inhibition.     

The nucleoside diphosphate kinase activity of DRnm23 is not required for inhibition of differentiation and induction of apoptosis in 32Dcl3 myeloid precursor cells

DRnm23 belongs to a multigene family which includes nm23-H1, the first bona fide metastasis suppressor gene, nm23-H2, nm23-H4, and nm23-H5. Like nm23-H1, nm23-H2, and nm23-H4, DRnm23 possesses nucleoside diphosphate kinase (NDPK) activity. Upon overexpression in myeloid precursor 32Dcl3 cells, DRnm23 inhibits granulocytic differentiation and promotes apoptosis. Two specific mutants of DRnm23 (H134Q and S136P), at residues required for the NDPK activity, inhibit differentiation and promote apoptosis of 32Dcl3 cells. By contrast, substitution of serine 61 with proline (S61P) or deletion of the RGD domain (DeltaRGD) abrogates the effects of wild-type DRnm23. Like wild-type DRnm23, all four mutants show a predominantly mitochondrial subcellular localization. These studies indicate that the enzymatic activity of DRnm23 is not required for the effects observed in 32Dcl3 cells. Moreover, the inability of the S61P and DeltaRGD DRnm23 mutants to inhibit differentiation and promote apoptosis may be due to defective protein-protein interactions at the mitochondria, the predominant site of DRnm23 subcellular localization.